JP2019025881A - Method for producing building material, and building material - Google Patents

Abstract

To provide a building material capable of expressing a natural feeling like a secularly changed cement based building material.SOLUTION: There is provided a method for producing a building material 1 where efflorescence is ununiformly produced on the surface. In the building material 1, the surface of a molded body 10 is provided with a coating film 101 of a sealer coating at an ununiform thickness, and also, ununiform efflorescence is produced on the surface of the molded body 10.SELECTED DRAWING: Figure 2

Description

  The present invention relates to a method for manufacturing a building material and a building material manufactured by the manufacturing method, and more particularly, to a method for manufacturing a building material characterized by a pattern formed on the surface thereof, and a building material.

  Conventionally, building materials made of various molding materials such as cement have been widely used as interior and exterior materials for buildings (see, for example, Patent Document 1).

  Such building materials are subjected to various coatings to form various patterns. For example, the texture of cement that has changed over time due to painting is being expressed. By constructing such a building material in a building, a wall that looks like an aged cement-based building material can be easily formed in a short period of time.

JP-A-5-200714

  However, there is a problem that it is very difficult to express a natural texture like a cement-based building material that has changed over time by painting applied to the building material.

  An object of the present invention is to provide a building material that can express a natural texture such as a cement-based building material that has changed over time.

The manufacturing method of the building material according to the present invention is:
Unevenly generate efflorescence on the surface.

  In the method for manufacturing a building material according to the present invention, it is preferable to apply a sealer coating so that efflorescence is unevenly generated on the surface of the molded body, and to cure and cure the molded body.

  In the method for manufacturing a building material according to the present invention, it is preferable that air is blown onto the sealer coating applied to the surface of the molded body to make the coating amount of the sealer coating non-uniform.

  In the method for manufacturing a building material according to the present invention, it is preferable that the molded body is made of a cement-based material and the sealer coating contains an acrylic resin.

  In the method for manufacturing a building material according to the present invention, the concentration of the acrylic resin contained in the sealer paint is preferably 0.5% or more and 5.0% or less.

The building material according to the present invention is
A coating film of a sealer paint is provided on the surface with a non-uniform thickness, and non-uniform efflorescence occurs on the surface.

  In the present invention, a building material capable of expressing a natural texture such as an aged cement-based building material can be obtained.

FIG. 1 is a schematic cross-sectional view showing an example of a building material according to an embodiment of the present invention. 2A to 2C are schematic cross-sectional views illustrating an example of a method for manufacturing a building material according to an embodiment of the present invention. FIG. 3 is a photograph showing the outer surfaces of the building materials of Examples 1 to 6 and Comparative Example 1.

  Hereinafter, an embodiment of the present invention will be described.

  In the building material 1 according to the present embodiment, the coating film 101 of the sealer paint is provided on the surface with a non-uniform thickness, and non-uniform efflorescence occurs on the surface.

  Cement building materials that have been used for a long period of time have a non-uniform appearance due to partial efflorescence on the surface. On the other hand, a general building material provided with a coating film of a sealer paint having a uniform thickness on the surface is suppressed from causing efflorescence. Such building materials do not have a natural texture because they have a uniform appearance without efflorescence. In contrast, the building material 1 of the present embodiment has a non-uniform efflorescence on the surface, and thus can express a natural texture like a cement-based building material that has changed over time.

  Hereinafter, the building material 1 of this embodiment and the manufacturing method thereof will be described in detail.

1. About Building Materials As shown in FIG. 1, a building material 1 according to this embodiment includes a molded body 10. The building material 1 may be used as an exterior material for a building or may be used as an interior material for a building. That is, the building material 1 may be installed on the surface exposed to the indoor side of the building, or the building material plate 1 may be installed on the surface exposed to the outdoor side of the building.

  On the surface of the molded body 10, a coating film 101 of a sealer paint is provided with a non-uniform thickness. That is, the coating film 101 of the sealer paint does not have a uniform thickness and includes a plurality of regions having different thicknesses. Of course, there may be a region where the sealer paint film 101 is not present on the surface of the molded body 10. For example, the coating film 101 of the sealer paint may be scattered in an island shape on the surface of the molded body 10, and a plurality of regions having different thicknesses may be scattered in an island shape in the coating film 101. . In addition, on the surface of the molded body 10, a substantially uniform sealer paint film 101 is formed as a whole, but there may be a region where the paint film 101 is not formed microscopically. 101 may have a microscopically thin region, and the coating film 101 may have a microscopically thick region. Further, the coating film 101 is formed by forming a thick sealer coating, that is, the coating film 101 may have a shading.

  Further, non-uniform efflorescence is generated on the surface of the molded body 10. Non-uniform efflorescence means that efflorescence does not occur uniformly, and means that the degree of efflorescence varies depending on the region. Of course, there may be a region where no efflorescence occurs on the surface of the molded body 10. For example, the area where efflorescence is generated may be scattered in an island shape on the surface of the molded body 10, and the area where no efflorescence is generated may be scattered in an island shape. Regions with different shades may be scattered in islands. In addition, although the efflorescence is generated almost uniformly on the surface of the molded body 10, there may be a region where the efflorescence is not generated microscopically, or there may be a region where the efflorescence is microscopically thin. There may be a region having microscopic efflorescence. Furthermore, the efflorescence generated on the surface of the molded body 10 may have a light and shade. For example, the generated efflorescence may have light and shade on the surface of the molded body 10.

  More specifically, efflorescence occurs strongly in the region where the thickness of the coating film 101 of the sealer paint is small, and efflorescence occurs weakly or does not occur in the region where the thickness of the coating film 101 of the sealer paint is large. That is, the degree of efflorescence can be controlled by controlling the thickness of the coating film 101 of the sealer paint provided on the surface of the molded body 10.

2. About the manufacturing method of a building material Hereinafter, the method of manufacturing the building material 1 of this embodiment is demonstrated for every process.

2-1. Preparation of cement-based molding material First, a cement-based molding material is prepared. The cement-based molding material is obtained, for example, by mixing cement, an admixture containing siliceous material, reinforcing fibers, an extender, water, and the like. The admixture containing siliceous material is, for example, silica powder having a SiO ₂ content of 70% by mass or more and a brane value of 3000 cm ² or more, silica stone powder other than the above, silica powder, granulated blast furnace slag, fly ash, pulp sludge It contains at least one component selected from the group consisting of incineration ash and sludge incineration ash.

  The reinforcing fiber contains at least one component selected from the group consisting of pulp, vinylon fiber, polypropylene fiber, and rock wool, for example.

  The filler is preferably aggregate (fine sand), crushed material of recovered cement product, and the like. The average particle size is preferably in the range of less than 5 mm.

  The amount of the cement is, for example, 30 parts by mass or more and 70 parts by mass or less, and the amount of the admixture containing siliceous is, for example, 30 parts by mass or more and 60 parts by mass or less with respect to 100 parts by mass of the solid content of the cement-based molding material. The amount of the reinforcing fiber is, for example, 3 parts by mass or more and 6 parts by mass or less, and the amount of the filler is, for example, 5 parts by mass or more and 40 parts by mass or less.

  The ratio of the amount of water to the solid content of the cement-based molding material (water content / solid content) is preferably in the range of 5/95 to 30/70.

  The ratio of the molar amount of Ca in the cement-based molding material to the molar amount of Si in the cement-based molding material (Ca molar amount / Si molar amount) is 0.5 or more and 0.8 or less. preferable. In this case, moderate efflorescence can be generated on the surface of the building material. For this reason, it is preferable to adjust the compounding ratio of each component contained in the cement-based molding material so that the ratio of the molar amount of Ca to the molar amount of Si is within the above range.

2-2. Molding Step Next, as shown in FIG. 2A, a cement-based molding material is molded to produce a molded body 10. The molding method is selected from, for example, roll pressure molding, extrusion molding, cast molding, papermaking molding, and the like. Although the shape of the molded object 10 is not specifically limited, For example, it is plate shape.

2-3. Primary curing step Next, the molded body 10 is cured. In primary curing, normal temperature curing can be performed.

2-4. Sealer Paint Application Step Next, as shown in FIG. 2B, a sealer paint is applied to the surface of the molded body 10. As a result, a layer 11 of sealer paint is formed. The sealer paint may be applied only to the upper surface of the molded body, may be applied to both the upper and lower surfaces of the molded body, or may be applied to the entire surface including the upper, lower, and side surfaces of the molded body. The method for applying the sealer paint is selected from the group consisting of a shower coat, a spray gun, a roll coater, a flow coater, and a curtain coater, for example. The method for applying the sealer paint is particularly preferably a shower coat. For example, as shown in FIG. 2B, a sealer paint layer 11 can be formed by applying a sealer paint to the surface of the molded body 10 by shower coating while the molded body 10 is conveyed.

  The sealer paint can contain one or more resins selected from the group consisting of acrylic resin, vinyl acetate resin, epoxy resin, chlorinated rubber, urethane resin, silicon resin, and fluorine resin. The sealer paint is, for example, an aqueous emulsion, or a solution or dispersion containing an organic solvent. The sealer paint preferably contains inorganic particles such as heavy calcium carbonate, precipitated calcium carbonate, kaolin, bentonite, sericite, dolomite, talc, clay, aluminum oxide, magnesium oxide, and diatomaceous earth. Such a sealer paint layer 11 can control the efflorescence generated on the surface of the building material.

  In this embodiment, it is preferable that the sealer coating contains an acrylic resin. In this case, the sealer coating can be retained even with autoclave curing.

  In this embodiment, it is preferable that the density | concentration of the acrylic resin contained in a sealer coating is 0.5% or more and 5.0% or less. In this case, natural texture efflorescence can be produced on the surface of the building material. If the concentration of the acrylic resin contained in the sealer paint is less than 0.5%, excessive efflorescence may occur, and if it is greater than 5%, the efflorescence will be suppressed too much and natural texture will not be expressed. There is. The concentration of the acrylic resin contained in the sealer coating is more preferably 0.6% or more and 4.0% or less from the viewpoint of generating natural texture efflorescence.

The coating amount of the sealer coating on the surface of the molded body is preferably 100 g / m ² or more and 300 g / m ² or less. In this case, it is possible to suppress the occurrence of excessive efflorescence on the surface of the building material, and it is possible to suppress the efflorescence from being excessively suppressed and making it difficult to express a natural texture.

2-5. Next, as shown in FIG. 2C, air is blown onto the sealer paint on the surface of the molded body 10. Specifically, air is blown from the nozzle 2 while spraying the sealer paint layer 11 while conveying the molded body 10. Thereby, the application amount of the sealer paint adhered to the surface of the molded body 10 can be reduced, and a region having a large thickness and a region having a small thickness can be formed in the layer 11 of the sealer paint. When air is sprayed, the amount of sealer paint to be removed varies depending on the pressure of air, the distance between the spray nozzle 2 and the molded body 10, the angle at which air is sprayed, and the like. Also, the amount of sealer paint removed depends on the surface area of the building material. As shown in FIG. 2C, when air is blown while the molded body 10 is being conveyed, the amount of the sealer paint that is removed varies depending on the conveyance speed of the molded body. Of course, the sealer paint may be partially removed completely. For this reason, the coating amount of the sealer paint can be made non-uniform by blowing air. The air blowing conditions are preferably, for example, that the distance between the blowing nozzle and the molded body is 1.5 cm and the air pressure is 150 kg / m ² .

  In this embodiment, a region having a large thickness and a region having a small thickness are formed in the layer 11 of the sealer paint by blowing air from the nozzle 2 to the layer 11 of the sealer paint, but the present invention is not limited to this. For example, the sealer paint layer 11 having a non-uniform thickness may be formed by partially providing a region where the sealer paint is applied a plurality of times. Alternatively, the sealer paint layer 11 having a nonuniform thickness may be formed by providing a region where the sealer paint is not partially applied. Further, the concentration of the sealer paint may be partially varied, that is, the sealer paint may be shaded.

2-6. Autoclave Curing Step Next, the molded body 10 is subjected to autoclave curing. Accordingly, the molded body 10 can be cured, the sealer coating layer 11 can be cured to form the coating film 101, and efflorescence can be generated on the surface of the molded body 10. From the viewpoint of effectively generating efflorescence, the autoclave curing conditions are preferably 160 ° C. or higher and 180 ° C. or lower, 0.5 MPa or higher and 0.9 MPa or lower, and 8 hours or longer and 13 hours or shorter.

  The building material 1 can be produced by the above process. Since the building material 1 of this embodiment is provided with the coating film 101 of the sealer paint having a non-uniform thickness, non-uniform efflorescence occurs. Specifically, efflorescence is suppressed in a region where the thickness of the coating film 101 is large, and no efflorescence occurs or weak efflorescence occurs. Moreover, in the area | region where the thickness of the coating film 101 is small, efflorescence is hard to be suppressed and strong efflorescence arises. For this reason, non-uniform efflorescence occurs depending on the thickness of the coating film 101. This non-uniform efflorescence can express a natural texture like a cement-based building material that has changed over time. In the present embodiment, it is preferable that the color difference (ΔE) between the portion where the efflorescence occurs most strongly and the portion where the efflorescence occurs weakest is 5 or more and 15 or less. The color difference can be measured by, for example, a color difference meter, a spectrocolorimeter, or the like.

  Further, clear coating or the like may be applied on the coating film 101 of the sealer paint. By applying the clear coating, the outer surface of the building material 1 can be protected while effectively using the appearance of the building material 1. For this reason, for example, damage due to wear of the outer surface of the building material 1 and occurrence of powder falling, and contamination of the outer surface of the building material 1 can be suppressed.

  Hereinafter, the present invention will be specifically described by way of examples.

(Examples 1-6)
Cement-based molding materials were prepared by mixing the materials shown in Table 1 in the proportions shown in Table 1.

  A molded body was produced by molding the cement-based molding material by an extrusion molding method.

  Next, this molded body was primarily cured (normal temperature curing).

Next, a sealer paint, which is an acrylic paint having a concentration shown in Table 2, was applied to the surface of the molded body by shower coating. The application amount of the sealer paint was 200 g / m ² .

Next, air was blown onto the sealer paint on the surface of the molded body (air cut) to reduce the coating amount of the sealer paint. The distance between the spray nozzle and the molded body was 1.5 cm, and the air pressure was 150 kg / m ² .

  Next, the molded body was cured by autoclave curing at 170 ° C., 0.7 MPa, and 10 hours.

  This produced building materials.

(Comparative Example 1)
Building materials were produced in the same manner as in Examples 1 to 6, except that the sealer paint was not applied to the surface of the molded body.

(Comparative Example 2)
A building material was produced in the same manner as in Example 1 except that air blowing was not performed on the sealer paint.

(Evaluation)
The efflorescence produced on the surfaces of the building materials of Examples 1 to 6 and Comparative Examples 1 and 2 was evaluated according to the following criteria. The results are shown in Table 1 below, and photographs of the building materials of Examples 1 to 6 and Comparative Example 1 are shown in FIG. Further, in the building material of Comparative Example 2, no efflorescence was generated, and a natural texture like a cement-based building material that changed over time was not expressed.

  A: Non-uniform efflorescence has occurred, and a natural texture like a cement-based building material that has changed over time is expressed.

  B: Excessive efflorescence has occurred or no efflorescence has occurred, and a natural texture like a cement-based building material that has changed over time is not expressed.

1 Building material 10 Molded body 101 Paint film

Claims (6)

Causes non-uniform efflorescence on the surface,
The manufacturing method of the building material characterized by this. Apply a sealer paint so that efflorescence occurs unevenly on the surface of the molded body, and cure and cure the molded body.
The manufacturing method of the building material of Claim 1. Air is blown onto the sealer paint on the surface of the molded body to make the coating amount of the sealer paint uneven.
The manufacturing method of the building material of Claim 2. The molded body is made of a cement-based material, and the sealer paint includes an acrylic resin.
The manufacturing method of the building material of Claim 2 or 3. The concentration of the acrylic resin contained in the sealer paint is 0.5% or more and 5.0% or less,
The manufacturing method of the building material of Claim 4. The coating film of the sealer paint is provided with a non-uniform thickness on the surface, and non-uniform efflorescence occurs on the surface.
Building material.